DE3100604C2 - - Google Patents

Description

The invention relates to a device for repeated Charging a charging capacitor to supply one Flash or flashing lamp with a series connection of two rectified polarity rectifier diodes and at least an auxiliary capacitor, with one between a first on circuit of the auxiliary capacitor and the connection point of the two rectifier diodes lying AC voltage source, the charging capacitor parallel to the series formwork device is the rectifier diodes and the second connection of the auxiliary capacitor with one of the terminals of the charging con is connected, as well as with a switch for off solve the discharge of the charging capacitor.

Such a device is disclosed in DE-OS 15 89 329. In the electron flash device known from this, a La decapacitor using a predetermined AC voltage be charged to the highest possible DC voltage, which is higher than the amplitude of the predetermined changes tension. To achieve this goal is a tension doubling circuit provided. By manual closing a trigger contact is the charging capacitor for generating  flashing can be discharged if necessary. The night part of a device of the type specified is that it not for the automatic operation of a flash unit predetermined frequency can be used.

A charging capacitor is also known from US Pat. No. 3,134,046. which is unloaded by hand due to a release to generate a flash and then by a la device is recharged. Also the ones from this Known loading device is not for automatic loading drive the flash, d. H. for the automatically regulated Charging capacitor designed.

The object of the present invention is therefore a pre Direction of the type mentioned for repeated charging of a charging capacitor to create where the discharge and charging of the charging capacitor automatically and with reduced energy consumption lust is regulated.

The object is achieved in that the AC voltage source is the secondary winding of a transformer primary winding to one from a DC voltage source supplied oscillator is connected that the auxiliary con capacitor is dimensioned so that the charging capacitor at each the current pulse of the Transforma clocked by the oscillator tors a quantity of charge limited by the auxiliary capacitor receives that the oscillator when reaching the target loading  voltage of the charging capacitor is blocked, and that the switches triggering the discharge of the charging capacitor from the oscillator when the target charge voltage of the La is the fired thyristor and a feedback tion resistance the oscillator during a predetermined Time blocked after the thyristor fires.

Advantageous configurations of the present the invention are in claims 2 to 7 ent hold.

With the present invention is automatic operation a flash or flashing lamp possible and this z. B. as a swimming mark for marking shallows or the like settable.

An embodiment of the invention is as follows based on the single figure, which is a circuit diagram of the Invention represents appropriate loading device described.

The device according to the exemplary embodiment consists of an oscillator 1 with a Schmitt trigger, for example of the 4093 type, with an input for switching the oscillator on and off by means of a daylight switch, which can have a light-sensitive resistor, or by means of a magnetically operated switch, and an adjustable potentiometer, which is connected in parallel to the terminals of the supply voltage source, an input terminal for the start and stop of the oscillator 1 for each flash by means of the voltage applied to the charging capacitor 5 , and an output terminal for the start signal for the thyristor 7 to ignite the light source 6 .

The transistor 2 is controlled by the oscillator 1 and operates the primary winding of the transformer 3 , whose secondary winding via diodes and the auxiliary capacitor or capacitors 4 charges the charging capacitor 5 , which in this way absorbs only the energy which is on the auxiliary capacitor for ver is standing. The charging process continues until the charging capacitor 5 is charged to the set voltage at which the oscillator 1 and the transistor 2 are stopped and the thyristor 7 receives the signal for igniting the light source 6 .

Since the auxiliary capacitor 4 charges the charging capacitor 5 for each charging pulse with a predetermined amount of energy, the charging of the charging capacitor is dependent on the oscillator frequency and the capacitance of the auxiliary capacitor. This means that the flash frequency can be varied within a wide range. A further change in the flash frequency can be achieved by blocking the oscillator 1 by means of a counter 10 at a desired time after discharge. These control options include that the intervals between the flashes can be changed so that a programmed sequence, ie the so-called Blitzcha characteristic can be easily obtained.

Since the auxiliary capacitor or capacitors 4 represent the limitation factor for the amount of energy that the charging capacitor 5 receives with each charging pulse, the transistor 2 can be dimensioned for a substantially lower power than in the previously known devices, and the transformer 3 can be provided with correspondingly small dimensions by a closed core, and therefore has a minimal loss.

In parallel to the charging capacitor 5 , the light source 6 is arranged and a series circuit consists of a capacitor and the primary winding of the second transformer 8 , the secondary winding of which when ignited by the thyristor 7 to the ionization electrode in the glow lamp, the flash lamp 6 , etc. has a high ionization voltage delivers.

Furthermore, the charging capacitor is connected in parallel to a voltage divider 12, 13 which, together with the number and capacitance of the auxiliary capacitors, determines the change in flash intensity through the elements 14 . This enables a coding in which the flash characteristic is changed by changing the flash intervals and the intensity.

Both programming and the on-off function can be operated by means of magnetically operated switches, half of the housing are operated, so that the front direction is completely waterproof and pressure-proof.

The lower part of the device below the light source serves as a handle and container for the accumulator or primary batteries, whereby the device can easily be kept in an upright position when used as a floating arke. The charging input terminals 11 , which are also used for the automatic start of the oscillator when the flash device falls into the sea, are arranged so that the one terminal on the outside of the side of the handle and the other terminal in the center of the lower end of the handle is net angeord. The handle is used for charging the interval accumulator, in which the handle is arranged in a designated opening in a charging unit, which is also used to store the device.

Claims (7)

1. Apparatus for repeatedly charging a charging capacitor for the supply of a flash or flashing lamp, with a series connection of two rectifier diodes with the same polarity and at least one auxiliary capacitor, with an AC voltage source lying between a first connection of the auxiliary capacitor and the connection point of the two rectifiers, whereby the charging capacitor is parallel to the series connection of the rectifier diodes and the second connection of the auxiliary capacitor is connected to one of the connections of the charging capacitor, and to a switch for triggering the discharge of the charging capacitor, characterized in that the AC voltage source is the secondary winding of a transformer ( 3 ) is whose primary winding is connected to an oscillator ( 1 ) supplied by a DC voltage source, that the auxiliary capacitor ( 4 ) is so measured that the charging capacitor ( 5 ) is clocked at each by the oscillator ( 1 ) Current pulse of the transformer ( 3 ) receives a limited amount of charge by the auxiliary capacitor ( 4 ), that the oscillator ( 1 ) is blocked when the target charging voltage of the charging capacitor ( 5 ) is reached, and that the discharge of the charging capacitor ( 5 ) triggers Switch is from the oscillator ( 1 ) when the target charging voltage of the charging capacitor ( 5 ) is fired Thy ristor ( 7 ) and a feedback resistor ( 10 ) keeps the oscillator ( 1 ) blocked for a predetermined time after the firing of the thyristor ( 7 ) . 2. Device according to claim 1, characterized in that two auxiliary capacitors ( 4 ) are provided in series, the gene parallel to the charging capacitor ( 5 ) lie. 3. Apparatus according to claim 1 or 2, characterized in that it is suitable for maritime purposes and is accommodated in an at least partially translucent housing, with magnetically operated scarf terns that are operated from outside the housing and the starting point of the oscillator after Discharge of the charging capacitor by changing the feedback resistance of ( 10 ). 4. Apparatus according to claim 1, 2 or 3, characterized in that a variable voltage divider ( 12, 13, 14 ) is switched in parallel to the charging capacitor ( 5 ) to together with the number or capacitance of the auxiliary capacitor ( 4 ) to allow adjustment of the flash intensity. 5. Device according to one of claims 1 to 4, characterized in that the auxiliary capacitor ( 4 ) for adjusting the flash frequency in its capacity is changeable. 6. Device according to one of claims 1 to 5, characterized in that the oscillator ( 1 ) works in comparison with the flash frequency at high frequency, for example 40 kHz. 7. Device according to one of claims 1 to 6, characterized characterized that the flash characteristic, d. H. Flash interval and intensity, from outside the ge is controllable.